Richard Lwin scite author profile

The development of microstructured fibres offers the prospect of improved fibre sensing for low refractive index materials such as liquids and gases. A number of approaches are possible. Here we present a new approach to evanescent field sensing, in which both core and cladding are microstructured. The fibre was fabricated and tested, and simulations and experimental results are shown in the visible region to demonstrate the utility of this approach for sensing.

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Drawn metamaterials with plasmonic response at terahertz frequencies

Tuniz

Kuhlmey

Lwin

et al. 2010

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The influences of substrate and metal properties on the magnetic response of metamaterials at terahertz region J. Appl. Phys.Electromagnetic metamaterials attract much attention since they can be engineered to exhibit optical properties not found in nature. Their fabrication, however, is challenging, especially in volume. We introduce drawing as a means of fabricating metamaterials, thus demonstrating a terahertz metamaterial. We codraw polymethyl-methacrylate and indium, producing several meters of metamaterial with wire diameters down to ϳ10 m, and lattice constants of ϳ100 m. We experimentally characterize the transmission properties of different samples, observing high-pass filtering between 0.3-0.4 THz, in good agreement with simulations.

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Stacked-and-drawn metamaterials with magnetic resonances in the terahertz range

Tuniz¹,

Lwin²,

Argyros³

et al. 2011

Opt. Express

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Opening up optical fibres

et al. 2007

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A unique optical fibre design is presented in this work: a laterally accessible microstructured optical fibre, in which one of the cladding holes is open to the surrounding environment and the waveguide core exposed over long lengths of fibre. Such a fibre offers the opportunity of real-time chemical sensing and biosensing not previously possible with conventional microstructured optical fibres, as well as the ability to functionalize the core of the fibre without interference from the cladding. The fabrication of such a fibre using PMMA is presented, as well as experimental results demonstrating the use of the fibre as a evanescent wave absorption spectroscopy pH sensor using the indicator Bromothymol Blue.

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Richard Lwin

Microstructured-core optical fibre for evanescent sensing applications

Drawn metamaterials with plasmonic response at terahertz frequencies

Stacked-and-drawn metamaterials with magnetic resonances in the terahertz range

Opening up optical fibres

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